EP3176590A1 - Stromsensor - Google Patents

Stromsensor Download PDF

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Publication number
EP3176590A1
EP3176590A1 EP16200963.3A EP16200963A EP3176590A1 EP 3176590 A1 EP3176590 A1 EP 3176590A1 EP 16200963 A EP16200963 A EP 16200963A EP 3176590 A1 EP3176590 A1 EP 3176590A1
Authority
EP
European Patent Office
Prior art keywords
lid
conductor
case
current sensor
opening
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP16200963.3A
Other languages
English (en)
French (fr)
Other versions
EP3176590B1 (de
Inventor
Manabu Tamura
Minoru Abe
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Alps Alpine Co Ltd
Original Assignee
Alps Electric Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Alps Electric Co Ltd filed Critical Alps Electric Co Ltd
Publication of EP3176590A1 publication Critical patent/EP3176590A1/de
Application granted granted Critical
Publication of EP3176590B1 publication Critical patent/EP3176590B1/de
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
    • G01R1/00Details of instruments or arrangements of the types included in groups G01R5/00 - G01R13/00 and G01R31/00
    • G01R1/02General constructional details
    • G01R1/04Housings; Supporting members; Arrangements of terminals
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
    • G01R15/00Details of measuring arrangements of the types provided for in groups G01R17/00 - G01R29/00, G01R33/00 - G01R33/26 or G01R35/00
    • G01R15/14Adaptations providing voltage or current isolation, e.g. for high-voltage or high-current networks
    • G01R15/20Adaptations providing voltage or current isolation, e.g. for high-voltage or high-current networks using galvano-magnetic devices, e.g. Hall-effect devices, i.e. measuring a magnetic field via the interaction between a current and a magnetic field, e.g. magneto resistive or Hall effect devices
    • G01R15/207Constructional details independent of the type of device used

Definitions

  • the present invention relates to a current sensor that measures a magnetic field that a current to be measured generates.
  • the magnetic shields have an influence not only on the blocking of the external magnetic field but also on the magnetic flux of the current to be measured, sensitivity varies and causes measurement error if the positions of the magnetic shields deviate.
  • Patent Document 1 Japanese Unexamined Patent Application Publication No. 2015-49184
  • the magnetic sensor or the like cannot be integrally molded. Therefore, after the magnetic shields are molded integrally with one case, and the magnetic sensor is housed within the case, the lid that closes an opening of the housing space is fixed.
  • the magnetic shields are molded integrally with the lid.
  • the lid and the case cannot be positioned with high accuracy.
  • the magnetic shields, the conductor, and the magnetic sensor cannot be positioned with high accuracy, and the measurement error readily worsens.
  • the present invention provides a current sensor that can perform positioning between a conductor, a magnetic sensor, and a magnetic shield with high accuracy and can measure a current to be measured with high accuracy.
  • a current sensor includes a conductor through which a current to be measured flows; a magnetic sensor configured to measure an induction field that the current to be measured generates; a case configured to house the conductor and the magnetic sensor in a state where the conductor and the magnetic sensor are positioned and that includes a first opening that allows the magnetic sensor to be inserted into a housing space therethrough; an insulating lid configured to cover the first opening of the case and includes a second opening for allowing the conductor to communicate with the outside of the case; and a lid magnetic shield positioned in the lid.
  • the case includes a positioning part including an outer edge that engages with the second opening of the lid and is positioned.
  • the lid and the case are positioned with high accuracy with a simple configuration by the engagement between the second opening of the lid and the outer edge of the positioning part of the case.
  • the conductor and the magnetic sensor are positioned in the case and the lid magnetic shield is positioned in the lid, the conductor, the magnetic sensor, and the lid magnetic shield can be positioned with high accuracy, an influence from a magnetic field of an adjacent conductor can be minimized, and the magnetic field of the conductor that is an object to be detected can be detected with high accuracy.
  • the case is made of resin, and the conductor is fixed by integral molding.
  • the conductor is fixed to the case by integral molding. Therefore, the conductor and the case can be positioned with high accuracy.
  • the case includes the first opening through which the magnetic sensor is capable of being inserted into the housing space. Therefore, the magnetic sensor can be inserted into the case after the conductor and the case are integrally molded.
  • the lid magnetic shield is fixed to the lid by integral molding.
  • the lid magnetic shield is assembled into the lid by integral molding. Therefore, the lid magnetic shield and the lid can be positioned with high accuracy.
  • the current sensor according to the aspect of the invention further include a case magnetic shield fixed to the case by integral molding on a side of the lid opposite to the conductor.
  • the magnetic field of the conductor that is an object to be detected can be detected with high accuracy by minimizing an influence from an external magnetic field which becomes noise from a side of the conductor opposite to the lid.
  • the conductor includes, within the case, at least one bent part, a first conductor located on one side of the bent part, and a second conductor located on the other side of the bent part
  • the positioning part of the case includes a first restricting part configured to restrict movement of the first conductor in a first movement direction, and a second restricting part configured to restrict movement of the second conductor in a second movement direction.
  • the direction of the conductor can be changed, the movement of the conductor in the first movement direction and the second movement direction can be restricted, and positioning of the conductor can be made easy.
  • the second opening of the lid has a configuration in which a terminal electrode of one end of the conductor is exposed to the outside of the case, and the case includes a third opening for locating a side of the conductor opposite to the one end outside of the case.
  • the housing space formed by the lid and the case and outside thereof can be made to communicate with each other in two places, and one end of the conductor and its opposite side can be located outside of the housing space.
  • the positioning part includes a fourth opening in which a conductive tubular nut engaged with one end of the conductor is housed and fixed.
  • the conductive tubular nut constitutes a portion of the electrode together with one end of the conductor, and an electrical resistance of a junction part can be made small by increasing the contact area between the one end of the conductor and its mating terminal.
  • the current sensor according to the aspect of the invention further includes a plurality of the conductors, a plurality of the magnetic sensors that are provided corresponding to respective currents to be measured and are configured to measure induction fields that the currents to be measured generate, and a circuit board on which the plurality of magnetic sensors are mounted, and the first opening has a shape through which the circuit board into the housing space is capable of being inserted.
  • the invention can be applied to multiphase conductors.
  • the outer edge of the second opening of the lid and the positioning part of the case have a recessed polygonal shape in a plan view as seen from a direction orthogonal to the lid, and the positioning part is fitted into the second opening.
  • the internal angles of the plurality of vertices of the recessed polygonal shape are about 90 degrees or about 270 degrees.
  • the positioning part engages with the lid, and has a stepped part including a height difference in a direction orthogonal to a planar direction in which movement of the lid is restricted in the planar direction of the lid.
  • the stepped part in the thickness direction of the lid also can further minimize the movement of the lid in the planar direction and allows for positioning with high accuracy.
  • a current sensor that can perform positioning between the conductor, the magnetic sensor, and the magnetic shield with high accuracy and can measure the current to be measured with high accuracy can be provided.
  • FIG. 1 is an external perspective view of a current sensor 1 of the embodiment of the invention
  • FIG. 2 is an exploded perspective view as seen from a lid 11 side of the current sensor 1 illustrated in FIG. 1
  • FIG. 3 is an exploded perspective view as seen from a case 13 side of the current sensor 1 illustrated in FIG. 1 .
  • a lateral direction of the lid 11 is defined as an X1-X2 direction
  • a longitudinal direction of the lid 11 is defined as a Y1-Y2 direction
  • a direction orthogonal to the surface of the lid 11 is defined as a Z1-Z2 direction.
  • FIG. 4 is a front view when the lid 11 is seen from a Z2 direction
  • FIG. 5 is a bottom view when the lid 11 molded integrally with a lid magnetic shield 21 is seen from the Z1 direction
  • FIG. 6 is a side view when the lid 11 molded integrally with the lid magnetic shield 21 is seen from a X2 direction
  • FIG. 7 is a perspective view when the lid 11 molded integrally with the lid magnetic shield 21 is seen from an oblique direction on a bottom surface side.
  • the current sensor 1 has, for example the lid 11, the case 13, the lid magnetic shield 21, a conductive nut 23, a circuit board 25, a magnetic sensor 27, a conductor (current path) 29, and a case magnetic shield 31.
  • the current sensor 1 has the conductor 29 through which a current to be measured flows, the magnetic sensor 27 that measures an induction field that the current to be measured generates, the case 13 that houses the conductor 29 and the magnetic sensor 27 in a state where the conductor 29 and the magnetic sensor 27 are positioned and that includes a first opening 9 that allows the magnetic sensor 27 to be inserted into a housing space 8 therethrough, the insulating lid 11 that covers the first opening 9 of the case 13 and includes a second opening 41 for allowing the conductor 29 to communicate with the outside of the case 13, and the lid magnetic shield 21 that is positioned in the lid 11.
  • the case 13 has a positioning part 51 including an outer edge 51a that is engaged with the second opening 41 of the lid 11 and is positioned.
  • the lid 11 and the case 13 are positioned with high accuracy with a simple configuration by the engagement between the second opening 41 of the lid 11 and the outer edge 51a of the positioning part 51 of the case 13.
  • the conductor 29 and the magnetic sensor 27 are positioned in the case 13 and the lid magnetic shield 21 is positioned in the lid 11, the conductor 29, the magnetic sensor 27, and the lid magnetic shield 21 can be positioned with high accuracy, influence from a magnetic field of an adjacent conductor can be minimized, and the magnetic field of the conductor 29 that is an object to be detected can be detected with high accuracy.
  • the case 13 has the housing space 8 that houses portions of the circuit board 25, the magnetic sensor 27, and the conductor 29.
  • the circuit board 25 and the magnetic sensor 27 are inserted into the housing space 8 of the case 13 and are positioned and fixed via the first opening 9.
  • lid magnetic shields 21 are assembled into the lid 11 by integral molding so as to be exposed to a bottom surface side of the lid.
  • Each lid magnetic shield 21 has magnetic permeability higher than air.
  • the second opening 41 for allowing the first terminal electrode 29a of the conductor 29 to communicate with the outside therethrough is formed at the center of the lid 11.
  • the second opening 41 has a function of being engaged with the outer edge 51a of the positioning part 51 of the case 13 and positioning the lid 11 and the case 13 with high accuracy.
  • Three lid magnetic shields 21 are respectively assembled in the Y1-Y2 direction into both sides of the second opening 41 in the X1-X2 direction.
  • the lid 11 is constituted of an insulating member.
  • each lid magnetic shield 21 is molded integrally with the lid 11 at the time of molding of the lid 11, the lid magnetic shield is positioned with high accuracy at predetermined positions of the lid 11.
  • each positioning part 51 of the case 13 are linearly located at equal intervals in the second opening 41 of the lid 11, and an end surface 51c of each positioning part 51 is exposed to the outside.
  • the second opening 41 has a recessed polygonal shape in a plan view as seen from a Z1-Z2 direction orthogonal to the lid 11.
  • the second opening 41 has a plurality of protrusions 41a and recesses 41b in the X1-X2 direction on respective sides in the X1-X2 direction with respect to a central axis L1 in the Y1-Y2 direction.
  • each protrusion 41a and each recess 41b in the Y1-Y2 direction are different from each other on X1 and X2 sides.
  • the internal angles of the plurality of vertices of the above recessed polygonal shape of the lid 11 are about 90 degrees or about 270 degrees.
  • FIG. 8 is a front view when the current sensor 1 is seen from the Z2 direction.
  • FIG. 9 is an external perspective view of the case 13 of the current sensor 1.
  • each positioning part 51 protrudes toward the lid 11 from a bottom surface of the case 13.
  • the case 13 is formed of, for example, an insulating member, such as resin.
  • the outer edge 51a of the positioning part 51 of the case 13 on the lid 11 side has the same recessed polygonal shape as the second opening 41, and is fitted into the second opening 41.
  • the outer edge 51a has a recess 51a1 that fits to a protrusion 41a of the second opening 41 illustrated in FIG. 4 , and a protrusion 51a2 that fits to a recess 41b.
  • the lid 11 may be easily attached to the case 13 by providing a minute gap to such a degree that that measurement accuracy (for example, 0.1 mm or less, though based on various dimensions or the like) is not affected, between the second opening 41 of the lid 11 and the outer edge 51a of the positioning part 51.
  • a minute gap to such a degree that that measurement accuracy (for example, 0.1 mm or less, though based on various dimensions or the like) is not affected, between the second opening 41 of the lid 11 and the outer edge 51a of the positioning part 51.
  • the end surface 51c of the outer edge 51a on the Z1 side protrudes in the Z1 direction compared to a surface 11a of the lid 11 on the Z1 side. It is not necessary that the end surface 51c higher than an upper surface of the lid 11.
  • the six positioning parts 51 are linearly locate in the Y1-Y2 direction.
  • Each positioning part 51 has a concave electrode housing part 51d that fixes and houses the first terminal electrode 29a of the conductor 29.
  • six phases are illustrated in the present example, the number of phases is arbitrary.
  • FIG. 10 is a view for explaining the shape of the electrode housing part 51d of each positioning part 51 illustrated in FIG. 1 .
  • the electrode housing part 51d in a plan view as seen from the Z2 direction, has a first side 511 that forms a predetermined angle with respect to the Y1-Y2 direction, and a second side 512 that extends in the X1-X2 direction.
  • the first side 511 is parallel to the first side 511 of a positioning part 51 adjacent thereto on one side.
  • the second side 512 of the electrode housing part 51d is parallel to the second side 512 of a positioning part 51 adjacent thereto on the other side.
  • the electrode housing part 51d has one end serving as the first side 511 and the other end serving as one end of the second side 512, and has a third side 513 that extends in the Y1-Y2 direction.
  • the electrode housing part 51d has one end serving as the other end of the first side 511, and has a parallel fourth side 514 that extends in the X1-X2 direction.
  • the electrode housing part 51d has a fifth side 515 that connects the other end of the fourth side 514 and the other end 512 of the second side together, and extends in the Y1-Y2 direction.
  • a first terminal electrode 29a of the conductor 29 is located in the electrode housing part 51d so as to become flush with a Z1 surface side.
  • the case 13, as illustrated in FIG. 1 is molded integrally with the conductor 29 such that the first terminal electrode 29a is housed in the electrode housing part 51d.
  • the conductor 29 is molded integrally with the case 13. Therefore, the case 13 and the conductor 29 are positioned with high accuracy.
  • FIG. 11 is a sectional view of the current sensor 1 in sectional line A-A illustrated in FIG. 1 .
  • the case magnetic shield 31 is assembled into the case 13 by integral molding. Therefore, positioning between the case 13 and the case magnetic shield 31 is performed with high accuracy. Additionally, downsizing of the case 13 also becomes possible.
  • Each positioning part 51 is engaged with the lid 11, and has a stepped part 51f including a height difference in a direction (Z direction) orthogonal to a planar direction in which movement of the lid 11 is restricted in the planar direction (X-Y) of the lid 11.
  • a stepped part 51f including a height difference in a direction (Z direction) orthogonal to a planar direction in which movement of the lid 11 is restricted in the planar direction (X-Y) of the lid 11.
  • FIG. 12 is an external perspective view of a conductor 29.
  • the conductor 29 has the first terminal electrode 29a at one end, and has a second terminal electrode 29b at the other end.
  • the conductor 29 has a bent part 29c.
  • the first terminal electrode 29a side serves as a first conductor 29d with respect to the bent part 29c of the conductor 29, and the second terminal electrode 29b side serves as a second conductor 29e with respect to the bent part 29c.
  • the first conductor 29d extends in the Z1-Z2 direction
  • the second conductor 29e extends in the X1-X2 direction.
  • a hole 29a1 is formed at the center of the first terminal electrode 29a.
  • the first terminal electrode 29a of the conductor 29, in the plan view as seen from the Z2 direction, has a first side 291 that forms a predetermined angle with respect to the Y1-Y2 direction, and a second side 292 that extends in the X1-X2 direction.
  • the first side 291 is parallel to the first side 291 of a conductor 29 adjacent thereto on one side.
  • the second side 292 of the first terminal electrode 29a is parallel to the second side 292 of a conductor 29 adjacent thereto on the other side.
  • the first terminal electrode 29a has one end serving as the first side 291 and the other end serving as one end of the second side 292, and has a third side 293 that extends in the Y1-Y2 direction.
  • the first terminal electrode 29a has one end serving as the other end of the first side 291, and has a parallel fourth side 294 that extends in the X1-X2 direction.
  • the first terminal electrode 29a has a fifth side 295 that connects the other end of the fourth side 294 and the other end 292 of the second side together, and extends in the Y1-Y2 direction.
  • the first side 291, the second side 292, the third side 293, the fourth side 294, and the fifth side 295 of the first terminal electrode 29a face and engage with the first side 511, the second side 512, the third side 513, the fourth side 514, and the fifth side 515 of the electrode housing part 51d.
  • the conductor 29 When the conductor 29 is assembled into the case 13 by integral molding, the first terminal electrode 29a is fixed within the electrode housing part 51d.
  • a lead-out wiring line is fixed to the first terminal electrode 29a, it is preferable that the lead-out wiring lines of respective phases are wired so as to be located on corresponding phases. Accordingly, influence resulting from electric currents of adjacent phases can be made small.
  • a distance in the Y1-Y2 direction can be shortened compared to a case where a side-by-side arrangement is adopted by forming the first terminal electrode 29a of the conductor 29 not into a tapered shape but into a rectangular shape. Therefore, downsizing of the current sensor 1 becomes possible without worsening the influence of an external magnetic field, and in the case of the same size, the intervals of the electrodes can be lengthened.
  • the first conductor 29d is restricted in movement in the X1-X2 direction by a first restricting part 13b of the case 13.
  • the second conductor 29e is restricted in movement in the Z1-Z2 direction by a second restricting part 13c of the case 13.
  • the first terminal electrode 29a has the hole 29a1 in the vicinity of the center thereof. Additionally, as illustrated in FIGS. 10 and 13 , a hole 51d1 is formed in a bottom surface of a recess of the electrode housing part 51d.
  • the hole 51d1 abuts against the conductive cylindrical nut 23.
  • the central axes of the hole 51d1 and the nut 23 coincide with each other.
  • FIG. 14 is an external perspective view of the current sensor 1 in a state where the lid 11 and the lid magnetic shields 21 are removed.
  • the circuit board 25 is positioned and fixed to a plurality of fixing parts 13e of the case 13 by bosses 25a.
  • a magnetic sensor 27 is fixed to a position corresponding to each conductor 29 on the conductor 29 side of the circuit board 25.
  • the magnetic sensor 27 for example, a magneto-resistive effect element, a hall element, or the like can be used.
  • the case magnetic shields 31 are respectively fixed to positions corresponding to the six conductors 29 by integral molding.
  • a screw 81 is passed through each hole 11c illustrated in FIG. 4 , and is fixed to each fixing part 13e of the case 13. Accordingly, the lid 11 is fixed to the case 13.
  • the current sensor 1 is manufactured by the following manufacturing process.
  • Each lid magnetic shield 21 and the lid 11 are integrally molded by injection molding or the like. Accordingly, the lid magnetic shield 21 is positioned with high accuracy in the lid 11.
  • each conductor 29, each case magnetic shield 31, and the case 13 are integrally molded by injection molding. Additionally, in this case, as illustrated in FIG. 13 , each nut 23 is molded integrally with the case 13 so as to bring about a state where the first terminal electrode 29a of the conductor 29 is electrically connected to the electrode housing part 51d of the positioning part 51 of the case 13.
  • each conductor 29, each case magnetic shield 31, the case 13, and each nut 23 are positioned with high accuracy.
  • the circuit board 25 to which the magnetic sensor 27 is fixed is fixed to the fixing part 13e of the case 13 by each boss 25a. Accordingly, the circuit board 25 is positioned with high accuracy in the case 13.
  • the second opening 41 of the lid 11 and the outer edge 51a of the electrode housing part 51d of the positioning part 51 of the case 13 are positioned, and the second opening 41 is fitted into the electrode housing part 51d.
  • the screw 81 is passed through the hole 11c illustrated in FIG. 4 , and is fixed to the fixing part 13e of the case 13. Accordingly, the lid 11 is positioned and fixed to the case 13.
  • the lid 11 and the case 13 are positioned with high accuracy with a simple configuration by the fitting (engagement) between the second opening 41 of the lid 11 and the positioning part 51 of the case 13.
  • the conductors 29, the circuit board 25, and the magnetic sensors 27 are positioned in the case 13 and the lid magnetic shield 21 are positioned in the lid 11, the conductor 29, the magnetic sensor 27, and the lid magnetic shield 21 can be positioned with high accuracy, influence from a magnetic field of an adjacent conductor can be minimized, and the magnetic field of the conductor 29 that is an object to be detected can be detected with high accuracy. Additionally, vibration can suppress degradation of properties resulting from shock or the like. Additionally, downsizing is possible.
  • the conductor 29 is fixed to the case 13 by integral molding. Therefore, the conductor 29 and the case 13 can be positioned with high accuracy.
  • the case 13 includes the first opening 9 that allows the circuit board 25, on which the magnetic sensor 27 is mounted, to be inserted into the housing space. Therefore, the circuit board 25 can be inserted into the case 13 after the conductor 29 and the case 13 are integrally molded.
  • the lid magnetic shield 21 is assembled into the lid 11 by integral molding. Therefore, the lid magnetic shield 21 and the lid 11 can be positioned with high accuracy.
  • the case magnetic shield 31 is fixed to the case 13 by integral molding. Therefore, the magnetic field of the conductor 29 can be detected with high accuracy by positioning the case magnetic shield 31 with high accuracy to suppress influence from an external magnetic field which becomes noise from the bottom part side of the case 13.
  • the bent part 29c are provided in the current sensor 1, the bent part 29c are provided. Accordingly, the direction of the conductor 29 can be changed. Additionally, as illustrated in FIG. 11 , the movement of the conductor 29 in the X1-X2 direction is restricted by the first restricting part 13b of the case 13, and the movement of the conductor 29 in the Z1-Z2 direction can be restricted by the second restricting part 13c.
  • the housing space formed by the lid 11 and the case 13 and its outside can be made to communicate with each other in two places (the second opening 41 and the third opening 13a), and one end of the conductor 29 and its opposite end can be located outside of the housing space.
  • the central axis of the conductive tubular nut 23 and the central axis of the hole 29a1 of the first terminal electrode 29a of the conductor 29 coincide with each other, and both are in contact with each other. Therefore, the nut 23 constitutes a portion of the first terminal electrode 29a, and electrical resistance of a junction part can be made small by increasing the contact area between the first terminal electrode 29a and its mating terminal.
  • the plurality of the nuts 23 are linearly provided at equal intervals, positioning of the nuts 23 is easy, the manufacturing process can be made easy, and positioning accuracy can be enhanced.
  • the first terminal electrode 29a of the conductor 29 has the third side 293 in which one end serves as the first side 291 and the other end serves as one end of the second side 292. Also, the distances between the first side 291, the second side 292, and the third side 293, and the center of the fourth opening 23a of the nut 23 are equal to each other. Therefore, the center of the fourth opening 23a of the nut 23 can be located near the center of the hole 29a1 of the first terminal electrode 29a, and the electrical properties of the first terminal electrode 29a can be made excellent.
  • the current sensor 1 as described above, by forming the second opening 41 of the lid 11 and the outer edge 51a of the positioning part 51 of the case 13 into a recessed polygonal shape and by fitting both of the second opening 41 and the outer edge 51a into each other in the X-Y direction, it can be made difficult for the lid 11 and the case 13 to move relatively, and positional accuracy of both of the lid 11 and the case 13 can be enhanced.
  • the positioning part 51 since the positioning part 51 has the stepped part 51f, the positional accuracy in the height direction (Z1-Z2 direction) between the lid 11 and the case 13 can be enhanced.
  • the first side 291 that forms a predetermined angles other than 90 degrees with respect to the Y1-Y2 direction (linear direction) illustrated in FIGS. 8 and 12 , and the second side 292 substantially orthogonal to the linear direction are provided.
  • the first side 291 is parallel to the first side 291 of the first terminal electrode 29a adjacent thereto on one side in the linear direction. Therefore, it is possible to make the shapes of the plurality of first terminal electrodes 29a same as each other, and properties, such as electrical resistance, can be made uniform.
  • the first side 291 of the second side 292 of the first terminal electrode 29a is parallel to the second side 292 of the first terminal electrode 29a adjacent thereto on the other side. Therefore, since the adjacent conductors 29 overlap each other in the linear direction as compared to the width L1 ( FIG. 15A ) of each conductor in a case where the first side 291 is made to be orthogonal to the above linear direction. Therefore, the length L2 of the width (the fifth side 295) of the conductor 29 in the above linear direction can be lengthened by the same amount ( FIG. 15B ), and downsizing can be achieved while keeping electrical resistance low. That is, in FIG. 15A and FIG. 15B , L2 > L1 can be established. Additionally, it is possible to make the shapes of the plurality of first terminal electrodes 29a same as each other, and properties, such as electrical resistance, can be made uniform.
  • the first terminal electrode 29a is formed by bending one end of the conductor 29 on the lid 11 side. Therefore, the first terminal electrode 29a can be formed in a simple process. Additionally, since the width of the conductor 29 is constant at the position (fifth side 295) where the conductor 29 is bent, bending accuracy can be enhanced.
  • the plurality of first terminal electrodes 29a are linearly provided. Therefore, according to the current sensor 1, positioning of each conductor 29 becomes easy, and the manufacturing process can be simplified.
  • the first terminal electrode 29a of the current sensor 1 has one end serving as the other end of the first side 291, and has the fourth side 294 parallel to the second side 292, and the fifth side 295 that connects the other end of the fourth side 294 and the other end of the second side 292 together, is parallel to the third side 293, and is longer than the third side 293.
  • the fifth side 295 is located at a position distant from the center of the nut 23 compared to the third side 293. For this reason, the plurality of first terminal electrodes 29a can be efficiently arranged in a small region in the above linear direction.
  • the number of the first terminal electrodes 29a is six, that is, an even number. Therefore, both ends of the plurality of first terminal electrodes 29a that are arranged linearly can serve as the second side 292, can be made orthogonal to each other in the linear direction, and the space efficiency at which the first terminal electrodes 29a are arranged can be enhanced.
  • the six-phase conductors are illustrated.
  • the number of conductors is not limited.
  • the conductor 29 having the bent part 29c is illustrated.
  • the presence/absence of the bent part and the number of bent parts are not limited.
  • the invention relates to the current sensor used for measurement of an electric current that flow through a conductor.

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  • General Physics & Mathematics (AREA)
  • Measuring Instrument Details And Bridges, And Automatic Balancing Devices (AREA)
EP16200963.3A 2015-12-02 2016-11-28 Stromsensor Active EP3176590B1 (de)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2015235774A JP6402089B2 (ja) 2015-12-02 2015-12-02 電流センサ

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EP3176590A1 true EP3176590A1 (de) 2017-06-07
EP3176590B1 EP3176590B1 (de) 2022-01-05

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPWO2018003434A1 (ja) * 2016-06-30 2019-02-14 日立オートモティブシステムズ株式会社 電流検出装置
CN111919125A (zh) * 2018-03-20 2020-11-10 株式会社电装 电流传感器
US11035888B2 (en) 2017-12-14 2021-06-15 Hitachi Metals, Ltd. Current sensor
EP3726229A4 (de) * 2017-12-13 2021-09-08 Alps Alpine Co., Ltd. Stromsensor
US11215645B2 (en) 2017-04-11 2022-01-04 Alps Alpineco., Ltd. Current sensor
US11287450B2 (en) 2017-12-13 2022-03-29 Alps Alpine Co., Ltd. Current sensor

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2020128961A (ja) * 2019-02-12 2020-08-27 日立金属株式会社 電流センサ
DE112021003025T5 (de) 2020-05-29 2023-03-16 Alps Alpine Co., Ltd. Stromsensor
CN111983283B (zh) * 2020-09-03 2023-06-27 上海润京能源科技有限公司 一种接线结构及全光纤式电流互感器传感头

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